Christmas tree baler



sRBEYET-ra CHRISTMAS TREE BALER May 2l, 1957 6 Sheets-Sheet l Filed May 24, 1955 SRBEYETTE CHRISTMAS TREE BALER- A May 21, 1957 6 Sheets-Sheet 2 Filed may 24', 1955 A INVENTOR. wwf-*05p /Z 'zyfy'f S. R. BEYETTE CHRISTMAS TREE BALER May 21`, 1957 e sheets-sheen 3 Filed may 24, 1955 IIs/VENTOR. l fn/ma? i?. Bil/IW May 21, 1957 s. R. BEYETTE 2,792,775

CHRISTMASTREE BALER 6 Sheets-Sheet, 4

Filed MayA 24, 1955 IN V EN TOR.

fm2/map 4 Wwf@ May 21, 1957` s. R. BEYETTE CHRISTMAS TREE BALER 6 Sheets-Sheet 5 Filed May 24, 1955 May 21, 1957 s. R. BEYETTE CHRISTMAS TREE BALER 6 Sheets-Shea?l 6 Filed May 24, v1955 INVNTOR.

f/Vw .7 75m/ff nted States Patent CHRISTMAS TREE BALER Sanford R. Beyette, St. Regis Falls, N. Y.

Application May 24, 1955, Serial No. 510,648

6 Claims. (Cl. 100--13) The present invention relates to an automatic Christmas tree baler.

It is an object of the present invention to provide a bale-r which is capable of `baling Christmas trees rapidly and which is adapted to materially decrease the time ordinarily consumed in baling said trees entirely `by hand.

It is a further object of the present invention to provide a Christmas tree `baler which is so arranged that Christmas trees can be fed into each end thereof, the operating means ysuch as a gasoline motor being therefore utilized with maximum efhciency and with a minimum of Waste motion unaccompanied by a tree lbaling operation.

It is a further object of the invention to provide a baler which can bale Christmas trees in perfect condition at a rate of one tree per minute, While utilizing a relatively simple, compact, efficient and rugged combination of parts, which consistently produces uniform results.`

Other features and details of the invention will be discussed in the course of the description of the accom panying drawings, which show one constructional form of the invention by way of example, and in which:

Figure l is a side elevational view of Ithe machine according to the invention showing a Christmas tree operatively disposed therein;

Fig. 2 is a fragmentary perspective View of the mechanism responsible for imparting rotational movement to the Christmas trees to be b'aled during their passage through the apparatus;

Fig. 3 shows a Christmas tree or the like prior to baling by the invention;

Fig. 4 shows a Christmas tree after ybaling by the apparatus according to the invention;

Fig. S is a diagrammatic representation of the driving mean-s effecting rotation of a tree being `baled and effecting progress of 'such tree through the machine;

Fig. 6 is a fragmentary perspective view of the movable carriage of the apparatus carrying the principal drive mechanism for causing longitudinal and rotational movement of the tree being baled;

Fig. 7 is a perspective view of one end station of the machine at which ya Christmas tree loading operation can be effected;

Fig. 8 is a fragmentary side elevational view of the string feeding means;

Fig. 9 is a fragmentary perspective detail, enlarged, of such string feeding means;

Fig. l0 is a fragmentary `section taken along the lines lll-10 of Fig. 6;

Fig. ll is a sectional View taken along'the lines 11-11 of Fig. 6;

Fig. l2 is a sectional view taken along the lines 12-12 of Fig. ll; and

Fig. 13 is an end plan view talren along the line `13a-13 of Fig. ll.

Referring now to the particular' description, Fig. 6 shows two horizontal members 21 and 22, the ends of which are supported by tree loading stations `2,3 and24, see Fig. l. A small driving motor, such as a .gasoline 2,792,775 Patented May 21, i957 motor M is mounted on a U-shaped frame 25 which is supported by and depends from the said two horizontal members 21 and 22, in a manner which will appear hereinafter. In operation, a tree is placed on one of the loading stations 23 or 24, its trunk is clamped to the travelling U-shaped frame 25, and the tree is thereafter simultaneously rotated and drawn through one of the large rings Z6 or 27 `at the loading stations 23 or 24. During the rotational movement, a twine `or cord 28 or 29 is wrapped around the tree, While the ring 26 or 27 serves to reduce the outer diameter of the tree to a desired dimension. After completion of the foregoing operation, another tree is placed in the other loading station, and the process is repeated.

`It Will be observed that horizontal members 21,22 are in reality racks having teeth 30 engageable with the teeth of pinions 31 and 32 mounted on a shaft 33 which is journalled at one end in upright portion 34 of U-shaped member 25, and which is journalled adjacent vthe other end thereof in upright member 35 of U-shaped member 2S. The end of shaft 33 journalled in upright member 35 has keyed thereto a large gear 36 driven `by a pinion 37, which later is keyed on a shaft 3E extending into a gear box 39, Fig. 6. Gear box 39 has situated therein reversing gearing mechanism of any lsuitable type, such ICC . for instance, as may 'be `commonly found in use in conmember 25, there is journalled a shaft dit having fastened thereto a pulley 45 of one size and another pulley 46 of a greater size. A suitable drive belt 47 is trained about pulleys 45 and 4) to connect the same in driving relation. The motor M, which may be a gasoline motor, has extending therefrom a shaft 48 having keyed thereon a pulley 49. A further drive belt Sil drivingly connects pulleys 49 and 46. It will be seen from the description that the motor M, -through the various pulleys, belts and also the gear box drive the shaft 33. The gear box 39 has an operating lever 6l) capable of selecting a desired operation, lsuch as forward, neutral, and reverse. A shut off arm 61 at loading station 23 or a shut off arm 62 at loading station 24 is provided for obvious reasons. The stopping device lshuts the machine off from la point just `above and below the rcenter of arm 60. A handle 62' connected to a 'shaft 63 extending from gear box 39 is provided which is adapted to contact stop arms 61, 62 and which provides automatic control over the operation of the gear box.

Referring to Fig. l0, and also to Fig. 6, it will be seen that connected to upright member 35 of U-shaped carriage 25, two arms are provided 70, 71, fixed to member 35 at '72 and 73, as by bolts. A member 74 is provided connected by means of bolts '75 and 76 to arms 70 and 71 respectively. Arms 70 and 71 carry at the upper ends thereof rollers '76 and '77 in bifurcated portions. The arms 76, 71 and cooperating rollers 76 77 serve to keep the U-shaped carriage rack from swaying. lt will also be noted that a suitable bracket El@ is provided adjacent the upper ends of the members 35S and 34, in order toprevent the U-shaped rack 25 from spreading.

Shaft 33 also has connected thereto a gear 9d engaging a pinion 91 fastened to a shaft 92 extending at right angles `to shaft 33. A housing 94 is provided having a portion 95 which is rotatable about shaft 33 and which is kept in a desired relation with respect to a member96 through the intermediary of bearings 97. Housing 94 also has a portion 100 which journals shaft V9,2 by means of bearings 101. The end of shaft 92 opposite 4 the end carrying gear 91 is provided with `a transversely extending member 102 which has extending at right angles to one end thereof a portion 103. Portion 103 is actually an angle member having extending therefrom and toward the axis of shaft 92 a blade member 104 which bisects the angle between the like members 105 and 106. Mounted atop portion 103 by means of a pin 106 is an arm 107 having depending therefrom and at right angles thereto a econd arm S, which in turn is provided with a further arm 109 extending at right angles therefrom and terminating in a portion 110 which is internally threaded and which receives a screw member 112. Screw member 112 has at the upper end thereof, as viewed in Fig. 13, an angle member 114 similar to angle member 103 and which, instead of being provided with a blade member such as 104, is provided instead with a series of pointed members 116. Lower end of screw member 112 has attached thereto an arm 118 connected to a handle 120 extending at right angles thereto. It will be seen that if the trunk of the tree is received intermediate the angle members 103 and 114, and if the handle means 120 is thereafter operated, the blade means 104 and the pointed members 116 will, as the threaded member 112 advances the member 110, firmly seize and grasp the trunk of the tree. It will be seen moreover that as shaft 33 rotates, gear 90 also rotates, in turn driving meshing gear 91, which, being connected to shaft 92, causes members 103 and 114 and therefore the trunk of the tree and the entire tree to rotate bodily with respect to the axis of shaft 92. Keeping in mind that rotation of shaft 33 is accompanied by a transitory movement also, in view of the engagement of pinions 31 and 32 with horizontal members 21 and 22, it will be seen that rotation and longitudinal movement of the tree is effected by the means thus far described.

It will be observed in Fig. 6 that a clutch arm 120 is provided. Clutch arm 120 has two separate arms 122 and 124 pivoted at the bottom about a shaft or pin 126 extending through a support member 127 mounted atop bracket 80. Arms 122 and 124 are connected adjacent the tops thereof by a cross bar 128 and a handle 129. A pair of lock arms 132 and 134 are also provided suitably secured to the members 127 hereinbefore mentioned. It will be seen that depending upon the direction in which shaft 33 turns, which in turn is dependent upon the adjustment of gear box 39, gear 91 will rotate in one or another of the two possible directions. As a result, unless otherwise restrained, rotation of gear 91 will cause the -tree trunk clamping arrangement hereinbefore descrlbed to assume one of two possible end positions, one pointing toward tree receiving station 23 and the other pomtmg toward the receiving station 24. Members 132 and 134 are intended to limit the position of the tree trunk clamping means when pointing in either of the two directions mentioned. intended moreover to cooperate with housing 100, and by virtue of the slots 140 and 141 therein, to maintain housing 100 in a desired position until the end of a tree wrapping operation. Upon reversing of the direction of rotation of the Shaft 33, and upon operating handle 129 to release the clamping members 140 and 141, the tree trunk clamping means wilt automatically assume a proper position for moving a tree in a direction opposite to the Clamp arms 122 and 124 are direction in which the tree which was just baled was moved. In this connection it may be well to observe that roller bearings 97 act in thrust to take the load from the gears. The repositioning feature just mentioned makes possible the use of the two loading stations just mentioned and also makes it possible to avoid causing the U-shaped carriage to traverse the horizontal members 21 and 22 without any load whatever, merely 'for the purpose of returning to the position in which a tree baling operation was initially commenced. In other words, if an operator loads a tree at loading station 23, the mechanism described rotates the tree and bales such tree while movving such tree toward loading platform or station 2,4.

When the tree is completely baled, the carriage arrivesV at station 24, the tree clamping means automatically operate to position themselves to receive a tree trunk of a tree loaded at station 24, and the tree from station 24 is thereafter rotated and moved while being baled toward station 23. As has been mentioned heretofore, one tree can be handled by the apparatus-described per minute.

Referring to Fig. 7, it will be seen that loading station 23 comprises a number of upright members 150 secured together by horizontally extending channel members 152, 153 and 154. Crosswise extending channel members 156 and 157 are provided at an angle to the horizontal and secured to members 153 by means of vertical channel members 158. A suitable smooth surface may be provided to form a chute, by spanning members 156 and 1574 by means of a sheet 160 of any suitable material. A semi-l enclosed chute is provided which enables the operator to see fully the passage of the tree therethrough, truuk first.. As has been mentioned, ring 26 serves to restrict the exr terior dimension of the tree. Mounted on channel mem-- ber 154, Fig. 7, is a supply of cord, twine or like wrapping means. An aperture 171 is provided at the base of supply container 170 through which cord 28 extends from cord roll 180. A novel mechanism is provided for insuring suitable cord tension. The string tightener comprises a member having an arcuate portion 191 terminating in a flat portion 192 secured by means of a bolt 93 to the bottom of the container 170. At the other end of member 190 there is provided a further flattened portion 193 having secured thereto a washer 194 through which the string 128 passes. String tightener further comprises a second member 200 having a flat portion 201 secured to the bottom of container' 170 by bolt 93, a curved portion 202 having an opening 203 therein for reception of the cord 28, and a second flat portion 204 terminating in a hinge 205. Extending through an opening 206 in fiat portion 204 is a bolt 207 which also extends through a member 209 having an opening 210 therethrough for passage therethrough of the bolt 207. Member 209 has a portion 220 extending closely adjacent and along the portion of member 190, with the twine therebetween. Member 209 is connected to the hinge 205. A spring 222 is arranged around bolt 207, and the spring acts between two members 224 and 225 the latter arrangement being held in place by a nut 228. It will be observed that by adjusting nut 228 any suitable or desired tension can be achieved and that once an adjustment is made, cord fed from the supply 170 will be fed under uniform tension. Each tree will therefore be baled in a uniform manner.

After leaving the tension providing means, the cord 28 passes through an opening 250 in ring 26, and from there to the tree;

It will be seen from the foregoing description that beginning with the tree 300 as shown in Fig. 3, it is possible to produce a very neatly baled tree 302, Fig. 4,l or Fig. l. If desired, and if the trunks of several trees are first fastened together, the group of trees, as shown in Fig. 2, and identified by the reference numeral 306 may be baled together, utilizing the present apparatus.

At the start of the operation, the cord 28 is drawn down manually through the opening 250 and tied to the trunk, as at 307 (Fig. 4). At the conclusion of the operationthe cord 28 is broken and tied, as at 300, this operation being performed manually.

It will be understood that it will be readily evident to those skilled in the art that many variations can be made in the illustrative elnbodiment hereinbefore described, without departing in any way from the spirit and scope of the invention. Particularly, the dimensions of the various parts are by no means critical and can be selected to suit the requirements, the size and strength of the parts being decided upon in accordance with'the length of life of the parts desired and in accordance with the size of the trees to be handled.'

What I claim as new and desire to protect by Letters Patent of the United States is:

1. An apparatus for baling Christmas trees comprising a pair of longitudinally extending racks, a U-shaped carriage movable along said racks and depending therefrom,

means on said carriage for clamping the trunk of a Christmas tree, means rotating said clamping means while said carriage moves along said racks, and a supply of cord operatively disposed relative to said carriage whereby to bale said tree while it is rotating and moving along said tracks, said carriage comprising a U-shaped frame member, a main shaft rotatable in reversible directions and journalled in the upper ends of said U-shaped frame member, pinions on said shaft cooperating with said racks, said shaft and said pinions forming a part of the means rotating said clamping means while moving said carriage along said tracks, said means rotating said clamping means while moving said carriage along said tracks further including a motor supported by said bottom of said U- shaped frame member, pulley and belt means, a reversing gear box connected to said motor by said pulley and belt means, a second shaft extending from said reversing gear box, a pinion on said second shaft, a large gear on said second shaft, and gear means connecting the trunk clamping means to the main shaft, a housing cooperating with the gear means connecting the main shaft to the trunk clamping means, said housing including roller bearings, means supported on said U-shaped frame member for limiting the movement of said housing in either direction of rotation of said main shaft.

2. An apparatus according to claim l, said gear means connecting the main shaft to said trunk clamping means comprising a gear on the main shaft and a gear on a part of said housing, said gears having axes at right angles to one another, the gear on the part of said housing having connected thereto the trunk clamping means,

3. An apparatus according to claim 2, said trunk clamp ing means comprising a third shaft connected to the gear mounted on part of said housing, an angle member extending parallel to the axis of said third shaft, blade means cooperating with said angle member through which to grasp the trunk of a tree, a second angle member movable toward and away from said first angle member, said second angle member being provided with pointed members also adapted to grasp the trunk of. a tree, whereby when said second angle member is moved toward the first mentioned angle member, the tree trunk is rmly grasped therebetween.

4. An apparatus according to claim 3, including manually operable means to move the second angle member toward and away from said rst angle member.

5. An apparatus according to claim 4, including a loading station at each end of the longitudinally extending racks, and shutoff means for the gear box including stop arms for cooperation with a control lever carried by the gear box, said stop arms being located at each loading station.

6. An apparatus according to claim 5, including means for controlling the gear box even when the U-shaped frame member is at the end of its travel and is under the `control of one of the shutof means.

References Cited in the file of this patent UNITED STATES PATENTS 611,208 Rood Sept. 20, 1898 868,339 Gold Oct. l5, 1907 1,362,382 Augier et al. Dec. 14, 1920 1,848,254 Johnson Mar. S, 1932 2,467,286 Young et al. V Apr. l2, 1949 

